eive-obsw/linux/obc/AxiPtmeConfig.h

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#ifndef LINUX_OBC_AXIPTMECONFIG_H_
#define LINUX_OBC_AXIPTMECONFIG_H_
#include <string>
#include "fsfw/ipc/MutexIF.h"
#include "fsfw/objectmanager/SystemObject.h"
#include "fsfw/returnvalues/HasReturnvaluesIF.h"
/**
* @brief Class providing low level access to the configuration interface of the PTME.
*
* @author J. Meier
*/
class AxiPtmeConfig : public SystemObject {
public:
/**
* @brief Constructor
* @param axiUio Device file of UIO belonging to the AXI configuration interface.
* @param mapNum Number of map belonging to axi configuration interface.
*/
AxiPtmeConfig(object_id_t objectId, std::string axiUio, int mapNum);
virtual ~AxiPtmeConfig();
virtual ReturnValue_t initialize() override;
/**
* @brief Will write to the bitrate configuration register. Actual generated rate depends on
* frequency of the clock connected to the bit clock input of PTME.
*/
ReturnValue_t writeCaduRateReg(uint8_t rateVal);
/**
* @brief Next to functions control the tx clock manipulator component
*
* @details If the tx clock manipulator is enabled the output clock of the PTME is manipulated
* in a way that both high and low periods in the clock signal have equal lengths.
* The default implementation of the PTME generates a clock where the high level is
* only one bit clock period long. This might be too short to match the setup and hold
* times of the S-and transceiver.
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* Default: Enables TX clock manipulator
*
*/
ReturnValue_t enableTxclockManipulator();
ReturnValue_t disableTxclockManipulator();
/**
* @brief The next to functions control whether data will be updated on the rising or falling edge
* of the tx clock.
* Enable inversion will update data on falling edge (not the configuration required by the
* syrlinks)
* Disable clock inversion. Data updated on rising edge.
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* Default: Inversion is disabled
*/
ReturnValue_t enableTxclockInversion();
ReturnValue_t disableTxclockInversion();
private:
// Address of register storing the bitrate configuration parameter
static const uint32_t CADU_BITRATE_REG = 0x0;
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// Address of register storing common configuration parameters
static const uint32_t COMMON_CONFIG_REG = 0x4;
static const uint32_t ADRESS_DIVIDER = 4;
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enum class BitPos : uint32_t { EN_TX_CLK_MANIPULATOR, INVERT_CLOCK };
std::string axiUio;
std::string uioMap;
int mapNum = 0;
MutexIF* mutex = nullptr;
MutexIF::TimeoutType timeoutType = MutexIF::TimeoutType::WAITING;
uint32_t mutexTimeout = 20;
uint32_t* baseAddress = nullptr;
/**
* @brief Function to write to configuration registers
*
* @param writeVal Value to write
*/
ReturnValue_t writeReg(uint32_t regOffset, uint32_t writeVal);
/**
* @brief Reads value from configuration register
*
* @param regOffset Offset of register from base address to read from
* Qparam readVal Pointer to variable where read value will be written to
*/
ReturnValue_t readReg(uint32_t regOffset, uint32_t* readVal);
/**
* @brief Sets one bit in a register
*
* @param regOffset Offset of the register where to set the bit
* @param bitVal The value of the bit to set (1 or 0)
* @param bitPos The position of the bit within the register to set
*
* @return RETURN_OK if successful, otherwise RETURN_FAILED
*/
ReturnValue_t writeBit(uint32_t regOffset, bool bitVal, BitPos bitPos);
};
#endif /* LINUX_OBC_AXIPTMECONFIG_H_ */